Four moles of a diatomic ideal gas are taken through a three-process thermodynamic cycle. The gas initially has a pressure of 6.00 atm with a volume of 8.00 L (point A). The gas it then expanded adiabatically to point B where the temperature of the gas is 100 K. The pressure of the gas is then increased via an isochoric process (point C). The gas is then compressed isothermally back to its initial state. For all calculations using the ideal gas law assume that R = 0.08 work, heat, internal energy, or entrony use R =80 J For any calculations of L'atm mol-K
Four moles of a diatomic ideal gas are taken through a three-process thermodynamic cycle. The gas initially has a pressure of 6.00 atm with a volume of 8.00 L (point A). The gas it then expanded adiabatically to point B where the temperature of the gas is 100 K. The pressure of the gas is then increased via an isochoric process (point C). The gas is then compressed isothermally back to its initial state. For all calculations using the ideal gas law assume that R = 0.08 work, heat, internal energy, or entrony use R =80 J For any calculations of L'atm mol-K
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Please answer part a,b,c. Do not type your answer, PLEASE POST PICTURES OF YOUR WORK. THANK YOU.
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